Lathe.



F. MULLER.

LATHE.

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LATHE. APPLICATION FILED JAN. 3. I910.

1,252,928. Patented J an. 8, 1918.

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LATHE.

APPLICATION FlLED IAN.1,I9I0.

Patented Jan. 8, 1918.

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LATHE. APPLICATION FILED IAN. 3| I910.

Patented Jan. 8, 1918;

7 SHEETS -SIIE ET I- me 80M IIIIIII|I\ UNITED STATES PATENT OFFICE.

FBIEDEBICE HULLEB OI' HARTFORD, CONNECTICUT, ASSIGNOB T0 PRATT & WHITNEY COMPANY, OF HARTFORD, CONNECTICUT, A. CORPORATION OF NEW JERSEY.

LATHE.

Specification of Letters Patent.

Patented Jan. 8, 1918.

Application filed January 5, 1910. 8010.110. 538,106.

Hartford, in the county of- Hartford and State of' Connecticut, have invented certain new and useful Improvements in Lathes, of which the following is a specificatmn.

This invention relates to lathes, the objectof the invention bein to providean eifective machine of this c aracter in which certain of the operations are automatically performed.

In the drawings accompanying and forming part of the present specification I 111115 trate in detail one advantageous form of embodiment of the invention which, toenable those skilled in the art to practice it, Will be fully set forth in the following description, while the novelty of the invention will be presented in the claims.

The machine represented in said drawings includes means for presenting the work and'for positioningit between the centers, chucking and rotating the work, advancing the tool-carriage, releasing the work, and then retracting carria e; and these several operations occur pre erably in the order same as seen from the left and right respecnamed and also automatically, although there may be cases where some of the operations might be performed by hand.

I do not restrict myself to the showing made by said drawings and description for I may epart materially therefrom and still be within the scope of my invention as covered in my claims.

Referring to' saiddrawings, Figure 1 is a front elevation of a lathe involving my invention.

2 is a top plan view of said lathe. Figs. 3 and 4: are end elevations of the tively, inFig. 1.

Fig. 5 is a detail view in section of the tail stock mechanism.

Fig. 6 is a view of a sliding block and its shoe.

Fig. 7 is a sectional view of said block and shoe.

Fig. 8 is a sectional perspective view of the chuck and certain adjacent parts.

Fig. 9 is a longitudinal, central sectional View of the same; i

Fig. 10 is a front elevation of said chuck.

Fig. 11 is an elevation of two of the elements of said chuck.

Fig. 12 is a view of a portion of a protecting plate.

'Fig. 13 is a side elevation of one side or half of the magazine.

Fig. 14 is a front elevation, and Fig. 15 a top plan view of the same.

Fig. 16 is a sectional to plan view of a portion of the driving mec anism including the speed changing clutch.

Fig. 17 is a vertical sectional view of the same, and,

Fig. 18 is a face view of a cam hereinafter described.

It will be evident that the views are on different scales. Like characters refer to like parts throughout the views. I

The framework of the lathe is denoted in a general way by 2 and as usual is sur-v mounted by a bed 3 upon which certain of the moving parts are mounted and which includesthe head-stock 4 which rota-tively supports the live-spindle 5 to which is fastened a stepped. cone pulle 6 adapted to be driven by an overhead belt althou h said spindle could be operated in any other des rable manner.-'- The tail-stock is denoted in a generalgway by 7 and as usual is adjustable on the bed 3, being 'rovided with clamping mechanism as,8 to old thesaine in a desired adjusted position. The tailstock 7 carries the tail-spindle 9 which as will hereinafter appear is capablegof longitudinal movement, said tail-stock (see Fig. 5) being prov-idedwith a suitable here or passage in which said tailindle slides. The live-spindle 5 (see Fig. with a center 10 and the tail-spindle with a center 11 and it is between these that the work is centered. The lathe like those of the usual form, is capable of turning various kinds of work. i

The tool-carriage or "main slide is designated by 12 and it: travels longitudinally of and upon the bed after the usual fashion, although as willhereinafter appear, said carriage or slide 12 is moved in both direct1o ns or reciprocated by automatic. mechanlsm. Upon the said carriage or mainslide 12 is a cross-slide 13 with which is is provided (not shown).

y the use of a belt 35' associated the usual adjusting wheel 14 and which carries the tool-post 15 equipped with the tool 16.

There is fastened to the spindle 5, the gear 17 in mesh with the gear 18 fastened to the stud shaft 19 supported .rotatively by suitable bearings on the bed 3. To the saidshaft 19 there is fixed a step ed cone pulley 20 adapted to be connecte by a belt .21 (shown in dotted lines in Fig. 3,) with a similar stepped pulley 22 fastened to the shaft 23 rotatively supported by suitable bearings or brackets on the rear side of the framework 2.

In the present case as will hereinafter appear the tool-carriage or main slide 12 is advanced at a low speed and the mechan sm for effecting this relative slow advanclng movement of said carria e referably de; rives its motion from the s a t 23 and there fore from the spindle 5 while separate means, as will also hereinafter appear, is provided for causing a quick return of said carriage.

The shaft 23 has fastened to it a worm 24 (Fig. 17) in mesh with a worm-gear 25 loose on the transversely-disposed rotary shaft 26 supported by the framework 2. To said shaft 26 is fixed a worm 27 in mesh with a worm-gear 28 fastened to, the shaft 29 which as will hereinafter appear, carries'certain cams by which the mam-slide or carriage 12, the magazine mechanism, and other devices can be operated. \Vhen the worm-gear 25 is clutched to the'shaft 26 it will be apparent that the shaft 29 will be driven at a low speed from the shaft 23 through the intermediate .deseribed parts.

- Said shaft 26 extends into a boxing 30' mounted on the rear side of -the framework 2 and 'inclosi'ng the worm 24, worm-gear 25 and certain other parts including the stud or short shaft-31. To said shaft 31 is fastened a spiral-gear 32 in mesh with a similar gear 33 fastened to a shaft 34 su ported by said housing or boxing 30 and xedly carrying exteriorly of the housing a ulley 35 is driven at a relatively high speed ii (dotted lines in Fig. 4) and an overhead pulley of large diameter The shaft 31 is in longitudinal alinement with the shaft 26 and when the two are put into driving connection, as by means of a clutch 36 the shaft 29 will be driven at its high speed so as to effect the quick return of the carria' e 12 and the rapid operation of certain 0t er devices. The worm-gear 25 is provided with a clutch sec" tion or member 37, while fixed to the shaft 31 is a complemental clutch section or member 38, and between these two clutch members the clutch 36 is mounted for'sliding movement on the shaft 26.

In'Figs. 16 and 17 the clutch 36 is shown as occupying its neutral or intermediate 'able projections 48 and 49 pulley 35. This -lars 48 and 49.

position in engagement with neither of the clutch members 37 and 38. Should. the clutch 36 be shifted to the left in these two views into engagement with the clutch member 37 the shaft 29 will be turned at its low s eed while should said clutch member be t rown to the right in said figures into eugagement with the clutch member 38 the shaft 29 will be driven at its hi h speed. Said clutch is automatically shi ted back and forth by means which will be hereinafter set forth. The shaft26 has a squared head 39.at its forward end which is adapted to be engaged by a wrench so that said s aft can be turned by hand to effect through the ported by a bracket 45 adjustable on t e forward side of the frameworki2 and held in an adjusted position by a clampin device 46. The forward endof the she. t 44 is squared to receive a wrench so that said shaft can be turned by hand to move,

'throughthe rack and pinion means described, the carriage 12 longitudinallyof the 12 and other devices bed 3 independently of the 'autom'aticall operativemechanism to be described.

Connected with this rack 42 is a-- rod or bar 47 which extends toward the'head end of the machine and which carries the adjustpreferably con sisting, as illustrated, of collars. A sliding block is provided at 50,- the framework at the .front and near the upper forward corner being provided with a suitable way as 51 to "support said block 50 for reciprocation longitudinally of the machine. The block is provided with a pendent stud which may. carry an anti-friction roller 52 positioned to be engaged by the lateral surfaces of the cams 41 and 41'. The block 50 has on its upper side a vertical extension or neck 53 bored to receive freely the rod or bar 47, said extension or neck bein disposed between the two adjustable" pro ections or col- It will be apparent that when the block 50 is moved toward the left in Fig. 1 the extension or neck 53 by acting against the collar 48 will, through the intermediate described parts, move the carriage 12 ina corresponding direction, this being the advancing movement of said carria e. When the block 50 is moved toward t e right the extension 53 by acting against the collar 49 Will move the carriage 12 toward the right, this being the retracting movement of the carriage. I have indicated by the arrow in Fig. 1 the direction of rotation of the cam-drum 40 and at this time the active face of the cam 41 is against the roller 52 so as to effect the adyance of the carriage 12. When the roller. 52 passes oil thetail portion of the cam 41 the drum will continue to rotate so as to cause the head end of the cam 41 to bear against said roller 52 to impart a return movement to the carriage 12. With the collars 48 and 49 arranged as shown the (lIllmAO will turn a short distance before the carriage 12 commences its return movement or until the extension or neck strikes the collar 49. The stroke of the sliding block 50in the present case never. varies but the collars 48 and 49 provide a simple means for regulating the stroke of the carriage. For illustration if the collar 48 be moved farther to the left in Fig. 1 a shorter advancing stroke of the carriage 12 would be the result, and although the full effect of the cam 41 would be expended the said cam would-not actually advance the carriage 12 until the extension 53 encountered the collar 48.

' So far as certain features of the invention are concerned, the blanks to be turned may be supplied to the centersby hand, but I prefer to provide for this purpose automatic magazine mechanism. The magazine mechanism which I have illustrated is not herein claimed as constituting of itself a part of the present invention. The magazine mechanism is set forth and. claimed in my divisional application.v for magazine mechanism,

filedJune 13th, 1910, as Serial No. 566,468 and renewed October 23rd, 1917, as Serial No. 198,180.

. The magazine mechanism is shown best in Figs. 13 to 15 inclusive althoughfor sake of clearness I have only illustrated one side of the magazine denoted in a general way by 54, the other being a duplicate practically of that shown in these several views. As a part of the magazine mechanism are two standards or uprights 55 the feet or bases of which rest on a plate 55 (Fig. 4) supported by brackets 56 bolted or otherwise suitably attached to'the rear upper side of the frame work 2. The standards are adjustable on" said plate 55 toward and from each other so that the width of the magazine can be adjusted, bolts as 57 (Fig. 4) being provided to hold the said standards in their adjusted positions. The plate 55 has a T-slot or channel 58 in which the heads of the bolts may slide. a

I will now proceed to describe one of the standards 55 and the parts associated therewith, this description applying to the other standardand associated partseircepting that they are oppositely formed and positioned. In this connection I will refer particularly to Figs. 13to 15inclusive. The standards 55 shown in these several views is assumed to be that on the left in Fig. 1. The said standard 55 is provided with an outwardlyextending head or projection 59 in which is tapped the adjusting screw 60. Fitted against the inner flat surface of said standard 55 is the plate 61 (Fig. 1.5) and fitted against said plate 61 is a somewhat similar plate 62, said plates having flanges or lips 63 and 64 at their forward sides which are in parallelism. The space between the flanges 63 and 64 presents a runway or channel to receive one end of each of the blanks which move downward by gravity, fitting as will be understood a corresponding runway on the other side of the magazine. The flanges or lips 63 and 64 as will hereinafter appear can be adjusted toward and from each other so as to adapt them accu. rately to the size of the blanks to be turned.

The plates 61 and 62 are provided respectively with laterally-extending ears or lugs 65 and 66 in superposed relation, these In S havingelongated slots each denoted by 6 The elongation of said slots is transverse of the machine and through these slots the screw 60 extends. Pinned to the upper end of said screwis a circumferentially knurled or roughened thumb-piece or knob 68'the lower endof which bears against the upper surface of the upper ear 66 while the lower tively with slots 70 and 71 disposed at right angles to each other, and through these slots a stud or bolt 72 is passed, said stud or bolt being rigidly mounted on the standard 55. Threaded upon the bolt 72 is a nut 7 3 adapted to clamp the said plates 61 and 62 in ad justed positions. \Vhen it becomes neces sary to change the width of the runway or channel defined by the two flanges or side walls 63 and 64 the nut 73 is first loosened after whichthe plates are raised or lowered. Owing to the inclined slots 70 and 71 it will be clear that when the plates 61 and 62 are elevated the flanges or walls 63 and 64 are caused to separate so as to widen said runway, while when said plates are lowered the runway will be narrowed. The elongated slots 67 permit the transverse movement of the plates. Duripg the adjustment of the said runway the-center line thereof never varies;' that is to say the'center line is not moved either forward or backward although the size or width of said runway changed, but this change is secured by moving the said flanges or walls 63 and 64 simultaneously fbward or from each other to the same extent. Then also it is apparent that the runwa or channel at one side of the magazine can eadjusted independently of the other. The work shown in the magazine is assumed to be cylindrical in form andof uniform diameter throughout its entire length and in this case the width of both runways is the same. But if the work were of different diameters at its ends one runway would have .to be larger than the other and in view of the independent adjustment of the runways I can receive work which differs in size at its ends. It is of course not essential that the work be cylindrical in shape for it might be square or polygonal in cross section:

In connection with a magazine such as that set forth I provide means for transferring. the stock therefrom to the centers, and I will now describe the transferring or feed device illustrated and denoted in a general way by 74, again referring to Figs. 13 to 15 inclusive.

The laterally enlarged or widened base or foot of each standard 55 supports for sliding movement the plate 75 which travels in a path transversely of the bed 3. The base of i this plate 75 is made in the form of a dovetail and one side thereofbears against an angular face on the lower portion of the standard while a glb 76 suitably fastened to the base of said standard bears against the opposite side. Said plate 75 and an exactly similar plate supported bv the other standard 55 constitute the body portion of the stock or blank transferring device 74. The bolts 75 are connected by a rod 77 (see Figs. 2. 3 and 4) which extends through vertical slots 78 therein, and which is connected to the upper ends of the duplicate arms 79. The arms are connected to the rock-shaft 80, supported by suitable bearings on the rear side of the framework 2. As said arms rock back and forth the two-plates 75 will be re ciprocated, being adapted on their forward stroke with the aid of suitable coiiperating devices to carry a blank into-the space between the two lathe centers and on their back stroke to return for a new blank from the magazinp.

Fitted against opposite sides of the plate 75 are plates 81 and 82 having oblique slots each denoted by 83 to receive the bolt 84 rigidly supported by the intermediate plate and having a nut 85 which constitutes a simple means for clamping the three plates normally to each other. From this'it will be evident that the plates 81 and 82 are adjustable and this adjustment is utilized in the present case to adjust the blank or stock transferring device 74 for work of different sizes. The central or intermediate plate 75 is shown as supporting for oscillation'two rockers. 86 (see especially Fig. 13) which has two of such pins or studs. The terminals of the rockers or levers 86 are shown as being in the form of forks 91, the outer side plate 81 having pins 92 near its upper edge to fit in the upper forks of the two rockers while the opposite plate 82 has pins 93 near its lower edge to fit the two lower forks.

It will be assumed that the outer plate 81' is thrust down, the nut 85 having of course been loosened to permit this action. As said outer plate 81 is lowered it will be moved forward, and at the same time the inner plate 82 will be elevated and moved rearward, the degrees of movement of the two plates being identical owing to the presence of the equalizing mechanism. lVhen the adjustment is secured the nut 85 will be tightened. The inner plate 82 has a substantially right-angled notch or rabbet 94 at its front end which forms part of a pocket or aperture for receiving the blank to be trans ferred, said blank dropping from the magazine intosaid pocket.

A detent or latch 95 of bell-crank shape is pivoted by its approximately horizontal branch at 96 to the reduced forward portion of the said inner plate'82; The pocket or aperture into which the blank is received by the blank transferring device has a bottom and two sides, the bottom consisting of the bottom of the notch or rabbet 91, the rear wall being the front edge of the outer plate 81 and the forward wall being the side of the vertical branch of the detent or latch 95. This latch is normally held in operative relation by a spring 97 (Fig. 14) coiled about the pivot 96, the said latch at such time bearing against a stop pin 98 on the plate 82. The blank-transferring device when in blank receiving position has the front and rear walls of each of the apertures absolutely in vertical alinemcnt respectively with the front and rear walls of the side runways ofthe magazine. In other words,

the front and rear walls of these pockets or apertures are in strict vertical alinemcnt with the side walls of the respective runways or channels so that there will be nothing to prevent .the free gravitation of the lowermost-blank in the magazine into the apcr-x tures of the said transferring device. It will be assumed that a blank is in the apertures of the transferring-device 7% as illustrated in Fig. 13 and that said transferring device has ust commenced to advance to transfer said blank. When the transferring device is movedforward the outer plates 81 then the transferring device 74 will be drawn back. During this backward motion the latches 95 will automatically recede or be tripped and thereby freed from the blank through the operation of the latter, which at this time is held stationary, and the instant that the blank thus transferred is wholly freed from the transferring device the latches will be promptly returned to their original positions byithe power of the springs 97. When the transferring device is in its retracted position the latches 95 will be supported against la 99 on the gibs 76 so that the wei ht of t e pile or stack of blanks is there y taken off the latches. The blank-receiving apertures of the transferring device can be adjusted independently of each other in accordance with the adjustment of the corresponding runways. Inasmuch as the upper edge of: each plate 81 engages the bottom edge of the corresponding plate 62, either of these plates canbe adjust ed first and then used as a gage for the adjustment of the other. In this way it is possible for the operator to adjust the aperture in the transferring device to the proper size and then correspondingly adjust the runway; or it is possible for him to first adjust the runway to the proper size and then correspondingly adjust the aperture. Either device serves as a gage for the adjustment of the other and in either case the center of the aperture, when in blank-receiving position, is coincident with the central plane of the runway. Preferably the aperture is adjusted first by properly moving the plates 81 and 82 and then the runway is adjusted by moving the plates 61 and 62 downward until the plate 62 engages the plate 81.

By the described construction, when the blank-receiving pockets or apertures at op osite sides of the stock-transferring device 4 are varied as to width the depth thereof is also correspondingly varied, so that I therefore always insure the axis of the blank being in horizontal alinement with the axis of the lathe spindles 5 and 9. j

On the shaft 80 (see Figs. l, 16 and 18) is fixed a roclca'rm 100 having a stud 101 at its inner end to be engaged by cams each denoted by 102 on the inner side of the diskor wheel 103 fastened to the main or continuously rotary shaft 29. The cams are so constructed and positioned as to swing the arms 79 to thereby advance and then draw back the centers 10 and 11v at the proper time and this result I secure by operating one of the spindles 5 and 9 in an endwise direction. For example I move the spindle 9 outward so as to permit the positioning of a blank between said centers 10 and 11 and when the axis of the blank coincides with those of said centers, the spindle 9 and with it the blank, is moved inward so as to cen ter and hold said blank.

I have illustrated particularly in Fig. 5

the endwise movable tail spindle 9 and this spindle is moved toward the right in said figure to permit the positioning of the blank and afterward is moved toward the left to engage the blank. Said spindle has attached to the outer portion thereof a collar 10 1. Slidably mounted on the spindle is a block 105, said block being provided interiorly thereof with a spring-actuated or yieldablymounted shoe 106 (see Figs. 6 and 7) which bears constantly against the outer surface of said spindle. When the block 105 is moved toward the left in the manner to be presently described, it moves the spindle 9 toward the left, causing the center 11 to engage a blank which has" been moved. into position by the transferring device T l. The blank is moved endwise into engagement with the center 10, whereupon endwise movement of the spindle 9 ceases and the block 105 slides inelfectively along the spindle, thus maintaining a definite. predetermined pressure between the centersand the blank. The block 105 is rigidly fastened to the rod 107 having a depending head 108 at its outer end, the tail stock 7 havin I a bore or passage for re ceiving and gait ing said rod 107. The framework 2 has an outward extending guide-projection 108' to slidingly receive the head 108 as shown best in Figs. 1 and d. Fastened to the shaft 29 near one end thereof (see Figs. 1 and 16) is a wheel 109 the periphery of which is provided with cams 110 and 111, the said cams being coiiperative Xvith a depending stud oranti-friction roller 112 on the head 108. The earn 110 by acting against the stud 112 serves to move the head 108 inward, while the cam 111 by operating head the spindle 9 moves outward, there being sufiicientinterval between the actions of the two cams to hold the centers closed and open respectively long enough to carry out desired steps in the operation of the lathe. After the blank has been firmly en-- gaged by the centers the cam 110 continues to move the block 105 inward but owlng to the resistance of the blank said block slips on the spindle and at this time the said block or shoe 115 set into vertical opening insaid" tail stock and engaging the surface of the spindle 9. The cam 113 is shown out of engagement with the lever 113 in Fig. 5, the spindle 9 at this time being in its right-hand position. When the spindle is moved toward the left as described theblock 105 as it slips along said spindle will apply its force to the lever 113' through the cam 113 to swing the inner and short arm, of said {lever 113 down and thereby force the screw 114 to press the shoe or clamp 115 into firm engagement with the spindle 9. By the means described the'centers are engaged with the blank and locked against disengagement. The blank is thus held until the completion of the turning operation, whereupon the' movement of the block 105' toward the right serves first to release the spindle and afterward to move it towardthe right.

After the work is centered and held it must be driven or rotated and preferablythough not necessarily the power for securing this action is derived from the live or head spindle 5. While rotation can beeflectedin any one of several ways I have found that it can be advantageously obtained through the agency of an automaticaily operative chuck, the jaws of which are opened to receive the blank whenit is engaged by the centers and are then closed on the centered blank'so that the latter is rotated by said spindle 5. At

the conclusionof the turning operation the chuck jaws are opened and the blank is thereby released. I

- The chuck is so constructed that the jaws 4 thereof will engage the blank without disturbing itsipo'sition on the centers. The

jaws are laterally movable oryieldable so as to accommodate themselves to any eccentricity or irregularity of the blank. Preferably the jaws are so mounted that they are permitted to float or yield in any direction. But as concerns certain features of the inn vention, I do not limit myself to a chuck with universally yieldable or floating jaws.

A chuck which -I have found satisfactory -for my purposes is illustrated in detail in Figs. 8 to 12 inclusive and will now be described. I do not herein claim the chuck by itself as constituting a part of the pres ent invention as it is presented'and claimed in my divisional application for chucks,

Serial No. 566,467,.filed June 13th, 1910,

upon which has been issued Patent 1,187,920, dated June 20th, 1916. The forward end of the spindle 5 is. reduced and circumferentially threaded to receive the body portion of the chuck driving member 116 having internal teeth, from which it will be evident that said member 116 rotates with the said spindle 5. Said member 116 incloses a driven member 117 having peripheral teeth which mesh with the internal teeth on the driving member 116. The mesh between the teeth of said driving and driven members is a very free or loose one so that the driven member isv capable of yielding laterally in any direction. The driving member 116 is surrounded by a two-part or sectional barrel or casing 118 which incloses the driving and driven members and which may turn relatively thereto. Between the front edge of spring is connected with the inner surface of the barrel or casing 118. The said chuck is shown'as provided with three jaws 120 which are mounted for swinging movement eccentrically thereof, pivots 120 being provided 'to connect said jaws with the driven member 117. Eachof said jaws 120 is pro-- .vided with an inward extending stud or pin 122 fitting a cam-groove 123 in the front face of the forward wall of the barrel or casing 118. The jaws 120 as will be deer are so mounted as to swing toward and from the center of the chuck a point which is apcoiled spring 119 is to move the barrel 118 in the direction of the arrow in Fig. 10 andv 120 and the barrel 118 and driven member 117 a plate'or disk 124 which extends across thejoint between the barrel and driven member and which thereby prevents chips and the like entering the interiorfof the chuck from the front thereof. The plate is -proximately coincident with the axis of the center '10. The constant tendency of the attached in some suitable manner to said driven member 117 and has arcuate guide slots 125 through which the respective studs 122 pass, said slots 125 being on arcs struck from the centers ofmotion of the respective rounding the sleeve 130.

afar directly engaging the blank, the result bein that when the blank is turned these auxi iary jaws are automatically tightened upon the'work; that is to saythe mere act rotating the blank tends to tighten saith auxiliary aws thereon. Coiled springs 128 surround the pivots of the jaws 126 and normally hold the said jaws with their lowest points initially-in'position to initially enfgage thew'ork. Inasmuch as the jaws 120 are carried by the driven member 117 which is laterally yieldable in .any direction as already stated, the jaws serve to firmly engage the blank irrespective of any irregularity or eccentricity thereof. The three 2 jaws, with the member 117, are capable of moving bodily in any direction to accommodate the work so as not to disturb its posi tion on the centers. Upon the inner face of the barrel orcasing 118 are two projectionsor lugs 129 and at intervals a suitable device'is moved into the path of these lugs forthe purpose ofpreventing the turning of said barrel with the driven member 117 in consequence of- 0 which the jaws-120 will be opened.

Loose on the forward portion of the spindle 5 is a sleeve 130 provided at its front with an annular flange 132. Encircling and sliding on the sleeve 130 is a ring 133 and 5 between said ring 133 and the flange 132 is a washer134 of suitable'frictional material, such as leather. The ring, the friction washer and the flange are pressed together by' one or more push springs 135 seated in 40' sockets 135' in said ring 133. The springs bear against the bottoms of the sockets and also against a relatively fixed disk 136 sur- The disk is provided with one or more guide pins 137 adapted to enter bores in said ring 133 to prevent turning of said ring as the same is moved back and forth on the bank or sleeve 130. Non-rotatively fitted to the inner end of the sleeve 130 is a collar138 and between this collar 138 and the disk 136 is a washer 139 of frictional material. It will be seen that the two washers 134 and 139 serve-to provide a frictional connection between the ring 133 and the sleeve 130. The sleeve can be turned with respect to the ring but. in so doing the friction offered by the two washers 134 and 139 must be overcome. On the front face of the flange 132 aretwo projections 140 cooperative with the projections 129,

- the projections 140 being movable into and out of the path of said projections 129 on the movement of the sleeve or band 130. Said projections are shown out of contact in Fig. 9 but it will be evident that when.the

projections 140 are moved into the path of the projections 129 the jaws 120 will be opened to receive a blank.

As a suitable means for shifting the sleeve 1 through the agency of the intermediate parts while opposite movement will free said aws so that the can be closed on the blank by the power 0 the spring 119.

A rod 145 is' pivoted to the lower end of the shifting lever 141 and to the outer end of said rod ispivoted the upper end of a lever 146 pivotally supported between its ends on the head end of theframework 2. The lever 146 has at its lower end an antifriction roller 147 coiiperative with the camsurface 148 of a cam 149 fastened to the shaft 29, the cam surface 148 being on the inner side of said cam. The cam surface is adapted at the proper time to thrust the lower arm of the lever 146 inward and thereby through the rod 145 draw the clutch shifting lever 141 backward to a position to effect the release of the jaws 120 and their consequent closing. At the proper "point in the operation of the machine the active portion of the cam 148 will pass abruptly oil the roller 147 so that the lever 146 is free to be shifted as for instance by a spring plunger 150acting against the lower portion of The moment that the cam 148 the same. frees said lever 146 the spring plunger 150 pushes the lower branch of the same outward, thereby moving the rod 145 in the op- .posite direction and pushing the projections 140 .(Fig. 9) into the path of the projections 129 to secure the opening of the jaws 120. The frictional effect exerted by the two washers 134, and 139 is greater than the force of the spring 119 so that when the projections. 140 arrest the projections 129 in the manner previously described the jaws 120 will be opened. When the jaws have been opened to their maximum extent and when the studs 122 have encountered the end walls of the cam-slots 123 the sleeve 130 with the flange 132 and the collar 138 will slip on the washers 134 and 139 and therefore turn with respect to the ring 133 and disk 136, the jaws 120 at this time being i open. As previously indicated the instant that the projections 140 are. drawn out of the path of the projections 129 the said jaws 120 will be closed by the spring 119. It will be seen that when the projections 140 are initially moved into the path of the projections 129 the rotation of the housing 118 is suddenly arrested by a hammer-like blow which serves to start the releasing movement of the jaws. During turning the jaws are very firmly clamped against the blank and it is necessary to provide a sudden shock or blow to release them. This is brought about by the engagement of the stationary pro jections 140 with the rapidly moving projections 129.

Referring now to Figs. 1 and 16.

It will be remembered that I have described a clutch member 36 for alternately putting the quick and slowfeeding mechanisms into action and as a suitable means for shifting this clutch, the lever 151 may be utilized. The lever is mounted for swinging movement on the framework 2 and has a forked connection with the clutch member as is usual. Coiiperative with the lever 151 is a bell-crank lever 152 fulcrumed at its angle to a'bracket 153 on said framework 2. The bracket is provided with suitable limiting stops, as screws 154, by which the amount of throw of said lever 152 may be adjustably limited, the inner branch of said lever oscillating between said stops 0r screws. The inner branch of the lever is provided with a spring plunger 154' the beveled head of which coijperates with a stud or anti-friction roller 155 on the tail or outer portion of the clutch shifting device 151. Fastened to the outer end of the shaft 29 is a disk 156 provided at or near its periphery with adjustable tappets or cams 157 and 151' adapted alternately to engage the outer arm of the lever 152 as shown in Fig. 16. As the wheel or disk 156 rotates the cam device 157 will swing the outer arm of the bell-crank lever 152 in an inward direction thereby causing the beveled head of the spring-plunger 154; to ride off the anti-friction roller 153 so that the spring of said plunger 154 thrusts the outer branch of the shifting lever 151 to the left in said Fig. 16. This movement of the shifting lever moves the clutch member 36 into engagement with the clutch member 38,

thereby effecting the rapid rotation of the shaft 26 and consequently of the shaft 29 together with the several cams carried thereby. When the tappet or cam-device 157 comes into contactwith the lever 152 the operation just described is reversed, thereby engaging the clutch member 36 with the clutch member 37 to rotate the shaft 26 and the connected parts relatively slowly.

It will be understood that the several cams are so mounted on the shaft 29 that'the movement of the carriage toward the left or in the cutting direction takes place while the shaft 29 is turning slowly, and that all of the other operations, including the supplying, centering and chucking of the blank and the return of the carriage, take place while the shaft 29 is turning rapidly.

As shown in Figs. 1 and 2, a rod 160 is pivoted to the lever 151, and extends toward' the front of the lathe, where it is connected with a hand lever 161 mounted on the framework 2. By means of the lever the rod may be moved endwise so as to throw the clutch 36 to put either the slow or quick feed mechanisms into action or to throw said clutch into its intermediate position and thereby stop the machine. In connection with said lever 161 there is --a notched detent plate 162 on the framework 2 to hold the leverin its central position when the clutch 36 is shifted to its neutral position by hand.

The operation of the lathe is as follows:

In Figs.1and 2 the centers 10 and 11 are shown as engaging a blank, the drum 40 at this time, turning. in the direction of the arrow. The cam 1 10 has thrust the spindle 9 to its inner position and afterward through the intermediate parts, has set the clamp ll5 in its spindle clamping position as previously set forth. On the rotation of the drum 40 in the direction indicated it serves through the intermediate parts to advance the carriage 12, the tool 16 on which is as-- sumed to be turning the work or'blank. The

drum 40 during this time is being driven by the slowfeed acting from the spindle 5 in the manner already described. The cam 148 is against the roller 147 so as to permit the clutch jaws 120 to be held closed upon the blank by the spring 119. The blank transferring device during the turning operation or while the carriage 12 is being advanced isin its retracted position as shown in Figs.

3 and 4 with a blank therein. As already set forth, the carriage 12 is advanced at a low speed, but when the advancing movement of the carriage has been completed the tappet 157 will engage the tail of the lever 152 and thereby throw the high speed mechanism into operation in the manner already described. At about the time the roller 52 passes oif the tail of the cam-strip 41 (at which time the advancing motion of the carriage will have been completed), the cam 148 will pass out of engagement with the roller 147. Then the spring plunger 150 becomes operative for snapping the lower branch of the lever 146 outward and thereby through the intermediate described parts opening the jaws 120 so that the turned.

blank can. fall from between the centers 10 and 11 when the same are separated. The centers are separated justafter the carriage 12 has completed its advancing movement and thisaction is secured by the cam 111 striking the roller 112 which acts first through the intermediate parts to disengage the clamp 115 and then to slide the spindle 9 outward, whereby the blank is released.

I When the'blank is released it falls from between the centers 10 and 11 and through anthe discharge end of the opening 3 being located in the forward side of the framework. The bottom 3" 0f' the opening is preferably inclined so' as to facilitate the passage of the turned. blanktoward a suitable receptacle (not shown) at the front side of the machine under the discharge end of the opening.

The spindle 9 is moved outward to its maximum extent by said cam 111 and is maintained in this position until a new blank is put in alinement with the two centers 10 and 11 by the forward movement of the blank-transferring device 74. Then as will be understood the cam 110 will operate through the said described parts to engage the center 11 with the work and then to clamp the spindle. When the centers 10 and 11 are separated the turned blank is released and the blanletransferring device is moved forward. When the centers are'separated to their maximum extent the blank is alined axially with them, at which time the spindle 9 is caused to move inward in the manner described to engage the center 11 with the blank. It will be understood that the center 11 moves the blank longitudinally in the transferring device into engagement with the ,center 10 in the way already described. Then the spindle 9 is clamped and the blank-transferring device is caused to move backward. When. this occurs the latches 95 automatically free or disengage themselves from the centered blank.

What I claim is;

1. In a lathe having live and dead centers with fixed'axes, the combination of mechanism including a magazine for supplying a blank to the'centers, mechanism for engaging the centers with the blank with a predetermined pressure, a lock for preventing separation of the centers, alaterally yieldable devicerotatable with the live center for engaging and driving the blank, a movable tool carriage, and mechanism for automatically operating the aforesaid elements in succession, (1st) to supply a blank, (2nd) to engage the centers with the blank and effect locking and to engage the blank for driving, (3rd) to move the tool carriage to efiect cutting and (4th) to return the carriage, to release the driving device and to separate the centers.

2'. In an apparatus of the character described, in combination, blank supporting means adapted to contact a blank at its ends, means adapted to engage the blank at one end for rotation, means whereby the supporting means automatically coiiperate to afl'ord a given contacting pressure irrespective of the length of the blank, and means whereby the engaging means accommodates itself to eccentricities in position or shape of the blank so as not to displace said blank with respect to the supporting means.

3. In a lathe, a dead center, a live center, a ma zine for blanks, automatic means for positioning a blank between the centers, and

minate pressure, and means for then secur-" ing the dead center in position for a desired time. i

5. In a lathe, a dead center, a live center,

'a magazine for blanks, automatic means for positioning a blank between the centers, automatic means for advancing the dead "center into contact with the blank and securing it in position when a determinate pressure irrespective of the length of the blank has been attained, and automatic means brought into action by the completion of the operation upon the blank for then unlocking and retracting the dead center to release the blank.

6. In an apparatus of the character de scribed, in combinatiommans comprising a center and a floating chuck adapted to support a blank at one end for rotation, means movable into and out of contacting position with the opposite end of said blank, and

actuating means for moving said movable means into contacting position comprising a member adapted to yield when a certain contacting pressure is obtained.

7. In an apparatus of 'the character described, in combination, means comprising a center and a gripper member floating with respect thereto adapted to support a blank at one end for rotation, means movable into and out of contacting position with the opposite end of said blank, actuating means for moving said movable means into contacting position comprising a member adapted to yield when a certain contacting pressure is obtained, and means adapted upon continued movement of the last said means to lock said movable means in contacting position.

8. In an apparatus of the character described, in combination, a frame, blank contactin means relatively fixed therewith compnsing a center and means adapted to rotatively engage a blank contacted by said' center without displacing the same. a second blank contacting member relatively movable with respect to said frame, and means adapted automatically to move said second contacting member to cause gripping of the blank between said fixed means and said movable member.

9. In an apparatus of the character described, in combination, means adapted to contact a blank at one end, means adapted to automatically contact the blank at its opposite end, and laterally yielding means lllll automatically engaging the blank for rotation, such means avoiding lateral displacement of the blank on the contacts.

10. In an apparatus of the character described, in combination, blank contacting means, means whereby a blank may be automatically mounted between said contacting means, and means adapted automatically to engage the blank for rotation, such means engaging the blank without throwing it ofl center.

11. In an apparatus of thecharacter described, in combination, blank contacting means, means whereby a blank may be automatically mounted between said contacting means, means comprising a driving member and movable gripper jaws loosely associated therewith adapted automatically to engage the blank for rotation and simultaneously avoid lateral displacement of the blank with respect to its mounting and to said driving member.

12. In an apparatus of the character de-' pair of spaced spindles, means adapted to mount a blank between the spindles comprising a member adapted to yield when a certam pressure is obtained, and'means adapted to rotate the blank on the spindles comprising devices adapted to yield to avoid disturbance of the blank laterally.

14. A lathe comprising, in combination, a pair of spaced spindles, means adapted to mount a blank between the spindles comprising a member adapted to yield when'a certain pressure on the blank is obtained, and a chuck comprising a floatin member having jaws adapted to engage the lank for rotation without disturbing'the position of the blank between the spindles.

15. A lathe comprising, in combination, a pair of spaced centers, means adapted to position a blank between the centers, means for engaging the centers with the blank comprising a member adapted to yield when a certain pressure is obtained, means adapted to rotate the blank on the centers comprising devices adapted to yield to avoid disturbance of the blank laterally, a movable tool carriage adapted to support a tool in operative position with the blank, means having a uniform back and forth throw adapted to move the carriage, intermediate spindle, and means for automatically opening and closing the jaws of the' chuck without disturbing the position of the blank on the centers.-

18. A lathe comprising spind es provided with centers, one of said spindles being rotative, means for automatically moving one of the spindles toward and from the other,

means for positioning a blank-between the separated spindles, a floating .chuck connected with the rotative spindle, and means for automatically opening and closing the jaws of'said chuck to clamp the blank -without disturbing its position on the centers.

19. A lathe comprising spindles provided with centers, means for positioning a blank between said centers, a rotary chuck provided, with jaws for engaging and rotating the blank between said centers without disturbing the. position of the blank on the centers, spring means tending constantly to close said jaws, independent means for opening the jaws, and means for inserting the blank within the opened jaws.

20. A lathe comprising spindles provided with centers, automatic means for successively ositioning blanks between said centers, a blank rotating chuck comprising two elements one of which floats with respect to the other, the jaw mechanism of the chuck being carried by the floating element whereby the blanks may be gripped without disturbing their positions on the centers, and

means for automatically operatin the jaw mechanism to chuck and release t e blanks in succession.

21. A lathe comprising spindles provided with centers, one of which is rotary and the other of which is endwise movable, automatic means for reciprocating said endwise movable spindle, a chuck operative with said rotary spindle, means for automatically positioning a blank between said centers when said en position, the inward movement of said endwise movable spindle serving to thrust the blank into said chuck, and means for automatically operating the chuck to grip the blank without disturbing its position on the centers.

wise movable spindle is in its outer 22. A lathe comprising spindles pror-id d with centers, one of said spindles being n tative and one of said spindles bei-ng eiid ,wisemqvable, a, chuck providedwgithblankclam mg jaws rotativia-with 'saidrotative.

spin la,- a device having a frictional connection with said endwise movable splndle,

means-for operating said device to recipro-q cate said endwise movable spindle, and

clamping means for said endwise movable spindle operable by said device.

23. A lathe comprising spindl provided with centers, a blank ma azin a devic "for transierring a blank fro the space between said centers, means .for

adjusting the magazine to receive l lanks'of different sizes, and meansioperhte magazine adjusting meansfor ad'nstmg the a a by said blankcarrying-portmn of the ansferring device to maintain said blank-c rrying portion in a definite relation to s idce'liters.

24. An automatic lathe incl 'ding incombination, a pair. of centers, afotary spindle carrying one of. said center, a longitudi nally movable non-rotatables indle carryinf; the other center" means or automati ca ly positioning a blanklgbe ween said cen I tore, means for automatically operatingsaid blanks of different s1zes.'

longitudinally movable spindle to soon e the think onsaid centers wlth a limited ressure, means for automatically gripping the blankjodrive it in connection with the ro-- tary spindle without disturbing its position on the centers, a tool-carriage travelmg longitudinally with respect to the axis of the centers, and mechanism for reci e maga e'vto;

rocating said tool-carriage in proper tim relation tetke. operation ofv the blank positioning, securing. and gripping means.

25.1% lathe comprising in combination, a

mind spindles rovided with centers, one

mg rotative means com I of said spindles nected with said'rotative spin e for gripping the blank without disturbing its position on the centers, a tool-carriage, means for reciprocating said tool-carria e longitudinally with respect to the axis 0 the blank,

and automatic mechanism for operatin in harmony said gripping means and sai reof said'spindles, and means for simultaneonsly ad]nsting the magazine and transferring means to operate in connection with In testimony whereof I aflix my signature in presence of two'witnesses. v

' FRIEDERICH MnLLEn. Witnesses:

Cnwronn D. Pnnmns, Fnannnin H. Woonronn.

It is hereby certified that in Letters Patent No. 1,252,928 granted Januery 8, 1918, upon the applicationof Friederich Miller, of Hartford, Connecticut, for an improvement in Lathes," errors appear in the printed specification requiring correction as follows Page 7, line 13, strike out the Wort! initially, second occurrence; eame page, line 62, strike out the words "or band; page 10, line 76,

claim 16, strike out the words "of the blank"; and that the said Letters Patent should be read with these corrections therein that the same may conform to the record of the case in the Patent Otfice.

Sigflegi and sealed this 5th day of March, A. D., 1918.

[5311.4 R. F. WHITEHEAD,

Acting Congmiaaimwr of Patents. 

